ADCP在不同推移质输送条件下记录的河床后向散射信号分析——现场应用

IF 1.7 3区 工程技术 Q3 ENGINEERING, CIVIL Journal of Hydraulic Research Pub Date : 2023-07-04 DOI:10.1080/00221686.2023.2224276
Slaven Conevski, M. Guerrero, A. Winterscheid, Doreen Faltis, C. Rennie, Nils Ruther
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引用次数: 0

摘要

利用声学多普勒海流剖面仪(ADCP)研究了三条通航河流在不同推移质输移条件下的后向散射信号。本研究旨在证明,BS强度作为表观推移质速度的附加变量,改善了使用ADCP的推移质传输特性。M9-3 MHz和垂直波束M9–0.5 MHz显示BS强度随着推移质强度的增加而下降,而RDI–1.2 MHz相对不敏感。0.5的中值晶粒度和BS强度之间的相关性 MHz是线性的,对于3 MHz,BS强度在有源层中衰减,并且对于1.2 MHz时,它显示出抛物线分布。此外,使用小波变换和无监督机器学习对ADCP测量变量的分析强调了推移质传输的空间和时间变化以及瞬态性质的重要性。
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Analysis of the riverbed backscattered signal registered by ADCPs in different bedload transport conditions – field application
Acoustic Doppler current profilers (ADCP) were deployed to investigate the backscattering (BS) signal in three navigable rivers, in different bedload transport conditions. This study aims to demonstrate that the BS strength, as an additional variable to the apparent bedload velocity, improves the characterization of the bedload transport using ADCPs. The M9 –3 MHz and the vertical beam M9 – 0.5 MHz showed decline of the BS strength as the bedload intensity increased, whereas the RDI –1.2 MHz was relatively insensitive. The correlation between the median grain size and the BS strength for the 0.5 MHz was linear, for the 3 MHz the BS strength was attenuated in the active layer, and for 1.2 MHz, it revealed a parabolic distribution. Moreover, the analyses of the ADCP measured variables, using wavelet transformations and unsupervised machine learning, highlighted the importance of the spatial and temporal variance and transient nature of the bedload transport.
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来源期刊
Journal of Hydraulic Research
Journal of Hydraulic Research 工程技术-工程:土木
CiteScore
4.90
自引率
4.30%
发文量
55
审稿时长
6.6 months
期刊介绍: The Journal of Hydraulic Research (JHR) is the flagship journal of the International Association for Hydro-Environment Engineering and Research (IAHR). It publishes research papers in theoretical, experimental and computational hydraulics and fluid mechanics, particularly relating to rivers, lakes, estuaries, coasts, constructed waterways, and some internal flows such as pipe flows. To reflect current tendencies in water research, outcomes of interdisciplinary hydro-environment studies with a strong fluid mechanical component are especially invited. Although the preference is given to the fundamental issues, the papers focusing on important unconventional or emerging applications of broad interest are also welcome.
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